Abstract Background: E7820 and related arylsulfonamides have recently been recognized as molecular glues that recruit the splicing factor RBM39 to the CRL4-DCAF15 E3 ligase complex, triggering RBM39 ubiquitination and degradation. Despite clinical evaluation, these degraders have shown limited efficacy and dose-limiting hematotoxicity. The underlying in vivo pharmacology of RBM39 degraders remains poorly defined, hindering optimization. Methods: We characterized the pharmacokinetic (PK), pharmacodynamic (PD), and efficacy relationships of E7820 and analogs (PPI-101, R134, R111, R011) in an IMR32 neuroblastoma xenograft model. Compounds were administered orally once daily for 28 days. Tumor growth inhibition (TGI), plasma/tumor exposures, and RBM39 protein levels were quantified to establish PK/PD relationships and identify next-generation RBM39 degraders with improved therapeutic index (TI). Results: E7820, PPI-101, R134, and R011 achieved complete tumor growth inhibition at 30 mg/kg. TGI correlated with unbound exposure normalized by cellular DC50 values, exhibiting a sigmoidal relationship between efficacy and exposure multiples. Following 3-day dosing, tumor RBM39 remained ≥75% depleted for up to 30 hours after the last dose, even when unbound plasma and tumor concentrations had fallen 300-fold below DC50, indicating slow RBM39 recovery kinetics and sustained pharmacodynamic effect. PPI-101 showed the most favorable DMPK profile, with the lowest human plasma protein binding, the highest volume of distribution (Vss = 0.77 L/kg)—an indicator of drug distribution between plasma and peripheral tissues—and superior tumor penetration (tumor/plasma ratio = 1.0, ∼50% higher than E7820). Consequently, lower plasma exposure was required for equivalent tumor coverage, reducing systemic exposure and the risk of hematologic toxicity. Preliminary toxicology studies revealed a markedly improved TI (14 for PPI-101 vs 2.7 for E7820), consistent with reduced reticulocyte and lymphocyte suppression. Conclusions: This study defines, for the first time, the in vivo PK/PD relationships governing RBM39 degradation and demonstrates that favorable distribution properties can markedly enhance therapeutic index. PPI-101 emerges as a potent and safer RBM39 degrader candidate for neuroblastoma therapy, warranting GLP toxicology and IND-enabling development. Citation Format: Jian Wu,Lei Zhou,Yongzhi Gao,Shanshan Wang,Qi Zhang,Jingping Mei,Fang Bai,Song Feng,James X. Rong. Favorable DMPK properties enable development of a novel arylsulfonamide RBM39 molecular glue degrader, PPI-101, for the treatment of neuroblastoma abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2026; Part 1 (Regular Abstracts); 2026 Apr 17-22; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2026;86(7 Suppl):Abstract nr 4603.
Wu et al. (Fri,) studied this question.